Guocai Liu scite author profile

The RNA G-quadruplex is an important secondary structure formed by guanine-rich RNA sequences. However, its folding studies have mainly been studied in vitro. Accurate identification of RNA G-quadruplex formation within a sequence of interest remains difficult in cells. Herein, and based on the guanine-rich sequence in the 5'-UTR of NRAS mRNA, we designed and synthesized the first G-quadruplex-triggered fluorogenic hybridization (GTFH) probe, ISCH-nras1, for the unique visualization of the G-quadruplexes that form in this region. ISCH-nras1 is made up of two parts: The first is a fluorescent light-up moiety specific to G-quadruplex structures, and the second is a DNA molecule that can hybridize with a sequence that is adjacent to the guanine-rich sequence in the NRAS mRNA 5'-UTR. Further evaluation studies indicated that ISCH-nras1 could directly and precisely detect the targeted NRAS RNA G-quadruplex structures, both in vitro and in cells. Thus, this GTFH probe was a useful tool for directly investigating the folding of G-quadruplex structures within an RNA of interest and represents a new direction for the design of smart RNA G-quadruplex probes.

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Colossal permittivity and impedance analysis of niobium and aluminum co-doped TiO₂ ceramics

Liu

Fan

et al. 2016

RSC Adv.

142

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Simulating and detecting the quantum spin Hall effect in the kagome optical lattice

et al. 2010

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We propose a model which includes a nearest-neighbor intrinsic spin-orbit coupling and a trimerized Hamiltonian in the Kagomé lattice and promises to host the transition from the quantum spin Hall insulator to the normal insulator. In addition, we design an experimental scheme to simulate and detect this transition in the ultracold atom system. The lattice intrinsic spin-orbit coupling is generated via the laser-induced-gauge-field method. Furthermore, we establish the connection between the spin Chern number and the spin-atomic density which enables us to detect the quantum spin Hall insulator directly by the standard density-profile technique used in the atomic systems.

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Guocai Liu

Visualization of NRAS RNA G-Quadruplex Structures in Cells with an Engineered Fluorogenic Hybridization Probe

Colossal permittivity and impedance analysis of niobium and aluminum co-doped TiO₂ ceramics

Simulating and detecting the quantum spin Hall effect in the kagome optical lattice

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Guocai Liu

Visualization of NRAS RNA G-Quadruplex Structures in Cells with an Engineered Fluorogenic Hybridization Probe

Colossal permittivity and impedance analysis of niobium and aluminum co-doped TiO2 ceramics

Simulating and detecting the quantum spin Hall effect in the kagome optical lattice

Contact Info

Product

Resources

About

Colossal permittivity and impedance analysis of niobium and aluminum co-doped TiO₂ ceramics